Answer:
Explanation:
Several scientists have made significant contributions to our current understanding of genetics. Here are a few examples:
1. Gregor Mendel: Mendel is often referred to as the "father of genetics." In the 19th century, he conducted groundbreaking experiments with pea plants and discovered fundamental principles of inheritance. His work laid the foundation for our understanding of how traits are passed down from one generation to another.
2. James Watson and Francis Crick: In the 20th century, Watson and Crick, along with Maurice Wilkins, elucidated the structure of DNA. Their discovery of the double helix structure in 1953 revolutionized our understanding of how genetic information is stored and transmitted. This laid the groundwork for modern molecular genetics.
3. Rosalind Franklin: Although often overshadowed, Franklin played a critical role in the discovery of DNA's structure. Her X-ray crystallography images provided crucial evidence that helped Watson and Crick develop their model. Franklin's work contributed to our understanding of DNA's physical properties and its role in inheritance.
4. Barbara McClintock: McClintock's research on corn plants in the mid-20th century revealed the existence of "jumping genes" or transposable elements. Her findings challenged the traditional view of genes as fixed entities and highlighted the dynamic nature of genetic material. McClintock's work earned her the Nobel Prize in Physiology or Medicine in 1983.
These scientists, along with many others, have made significant contributions to our understanding of genetics. Their discoveries have paved the way for further advancements in the field, leading to breakthroughs in areas such as genetic engineering, gene therapy, and personalized medicine.
Symbiotic relationship /Interaction
In a symbiotic relationship, two organisms live in close association and at least one of them is benefited out if this association.
There are basically three types of symbiotic relationships –
a) Mutualistic Relationship – In this both the organisms living in association get benefited.
b) Commensalism Relationship – In this association, one organism is benefited while the other is neither benefited nor harmed
c) Parasitic Relationship – In this association, one organism is benefited while the other one is harmed.
Answer:
Symbiotic
Explanation:
Humans have a tailbone that is not visible during embryonic development, which suggests that humans evolved to not depend on their tailbone serving a useful purpose.
Humans do not have gills as fish do, but human embryos have gill slits, suggesting humans and fish share a common evolutionary ancestor.
Humans have embryonic cells that develo
Answer:
If I am correct, C would be your answer.
Lake and ponds are standing water.
Further Explanation:
Wetlands are the areas of marsh, peatland or water. It can be natural or artificial, permanent or temporary with water; static or flowing.
The characteristics of wetlands are-:
1. An abundance of water and prolonged saturation of the same.
2. Wetland vegetation have special adaptation for life in permanently or seasonally saturated soils.
3. The saturated soil forms distinct and visible characteristics.
Wetlands are often found alongside the waterways and also in floodplains. Wetlands may vary widely due to difference in soil, topography , the chemistry of water and vegetation. Several smaller wetland types may give rise to large wetlands.
Many wetlands found in rocky mountains regions dry up.
Lake and ponds: The characteristics feature are:
Ponds are shallow enough to allow the growth of plants across entire surface. The area where plants can grow is known as photic zone. In contrast to ponds the lakes has aphotic zone.
Learn more:
1. Learn more about water: brainly.com/question/4636675
2. Learn more about lake: brainly.com/question/4947666
3. Learn more about river: brainly.com/question/4947666
Answer Details:
Grade: College Biology
Subject: Biology
Chapter: Ecology
Keywords:
Marsh, peatland, wetland, lake, ponds, photic zone, topography, vegetation, aphotic zone, soil, mountains, static water, saturated soils.
Answer:
The correct answer would be producers as they convert light energy to chemical energy by photosynthesis.
Explanation:
The food chain is a sequence of transfer of energy and food to one organism is consumed by the other.
Trophic level is the position or the place of organisms share in the food chain. Producers are the trophic level placed in the bottom of the food chain.
Producers (plants) convert light energy into chemical energy by the process of photosynthesis. This chemical energy transfer from one trophic level to another. Producers provide food and energy to other trophic levels when they consume producer as their food. The green plants and blue-green algae are the examples of producer trophic level.
Thus, the correct answer would be producers.